Conjugates comprising a targeting moiety specific for the CXCR4 and based on the polyphemusin-derived peptide and a therapeutic or imaging agent are provided. Therapeutic and diagnostic methods with the conjugates which require specific targeting to CXCR4+cells are provided as well.

Conjugates comprising a targeting moiety specific for the CXCR4 and based on the polyphemusin-derived peptide and a therapeutic or imaging agent are provided. Therapeutic and diagnostic methods with the conjugates which require specific targeting to CXCR4+cells are provided as well.

In one aspect, methods of targeted nanoparticles and cell delivery are described herein. In some embodiments methods described herein comprise coupling nanoparticles and cells to a carrier cell to form a nanoparticle-cell conjugate or cell-cell conjugate, disposing the nanoparticle-cell or cell-cell conjugate in a biological environment, and delivering the nanoparticles and cells to target cells or tissues located within the biological environment. The nanoparticles comprise a biodegradable photoluminescent polymer, and the nanoparticle-cell conjugate is formed using one or more click chemistry reaction products.

In one aspect, methods of targeted nanoparticles and cell delivery are described herein. In some embodiments methods described herein comprise coupling nanoparticles and cells to a carrier cell to form a nanoparticle-cell conjugate or cell-cell conjugate, disposing the nanoparticle-cell or cell-cell conjugate in a biological environment, and delivering the nanoparticles and cells to target cells or tissues located within the biological environment. The nanoparticles comprise a biodegradable photoluminescent polymer, and the nanoparticle-cell conjugate is formed using one or more click chemistry reaction products.

A natural immune agonist complex, consisting of an immune agonist and a targeted liposome, where the immune agonist is M(cGAMP)L.sub.n. The targeted liposome is formed by a nanobody targeting a tumor microenvironment, a cell membrane-targeted penetrating peptide, or a blood-brain barrier-targeted penetrating peptide with a liposome through chemical bonding. This application further provides a preparation and application of the natural immune agonist complex.

A cell penetrating conjugate comprising a recombinant β helical protein linked to a functional molecule wherein the β helical protein length is in the range of from 5 nm to 25 nm, suitably, from 10 nm to 15 nm and width is in the range of from 1 nm to 5 nm, suitably, from 1 nm to 3 nm. Processes for preparing said conjugates and uses thereof are also disclosed.

A cell penetrating conjugate comprising a recombinant β helical protein linked to a functional molecule wherein the β helical protein length is in the range of from 5 nm to 25 nm, suitably, from 10 nm to 15 nm and width is in the range of from 1 nm to 5 nm, suitably, from 1 nm to 3 nm. Processes for preparing said conjugates and uses thereof are also disclosed.

A method of inhibiting inflammation with milk oligosaccharides or glycoconjugates containing the oligosaccharides.

A method of inhibiting inflammation with milk oligosaccharides or glycoconjugates containing the oligosaccharides.

The present invention relates to a gas-generating micelle for reducing localized fat. In the present invention, by forming a micelle using a material having high biocompatibility and also introducing a cell-targeting ligand (peptide) onto the surface of the micelle, delivery to surrounding cells and tissues other than adipocytes can be minimized, and delivery into adipocytes can be maximized. The gas-generating micelle for reducing localized fat according to the present invention can be produced as an injectable preparation, and can be applied to local lipolysis supplements or diet beauty products that break down localized fat.